RU2014137570A - SYSTEM AND METHOD FOR REPLACING A FLOW METER FOR COMBINED FLOW METERS - Google Patents

Abstract

1. A measuring system for ultrasonic flow measurement, comprising: a plurality of ultrasonic flow meters, each of which contains: a flow data processing device, configured to: save a plurality of speed intervals, each of which corresponds to a range of flow velocities of said flowmeters, storage, within each of the indicated intervals, a value characterizing the previous average fluid flow rate through a given flow meter from said flowmeters associated with this inter shaft of said intervals, determining in response to a malfunction of one of said flow meters, the expected average fluid flow rate through said system on the basis of values stored in said intervalah.2. The system of claim 1, wherein the flow data processing device is configured to: determine, in response to a malfunction of a given flowmeter from said flowmeters, the expected average fluid flow rate through this given flowmeter from said flowmeters based on values stored in the intervals , and determining an expected average fluid flow rate through said system by combining an expected average fluid flow rate through said given flow meter from flow meters and the measured average fluid flow rate through one of these flow meters with no malfunction. 3. The system of claim 1, wherein the flow data processing device is configured to store, as a value of average flow rates, measured by data

Claims (30)

1. A measuring system for ultrasonic flow measurement, comprising: many ultrasonic flow meters, each of which contains: a flow data processing device configured to: preserving a plurality of speed intervals, each of which corresponds to a range of flow velocities of said flowmeters, storing, within each of the indicated intervals, a value characterizing the previous average fluid flow rate through a given flow meter from said flow meters, associated with a given interval from said intervals, determining, in response to a malfunction of one of said flowmeters, the expected average fluid flow rate through said system based on values stored in said intervals. 2. The system of claim 1, wherein the flow data processing device is configured to: determining, in response to the presence of a malfunction of a given flowmeter from said flowmeters, the expected average flow rate of a fluid through this given flowmeter from said flowmeters based on the values stored in the intervals, and determining the expected average fluid flow rate through said system by combining the expected average fluid flow rate through said given flowmeter from said flowmeters and the measured average fluid flow rate through one of said flowmeters without a malfunction. 3. The system of claim 1, wherein the flow data processing device is configured to store, as a value of the average flow rates, measured by a given flowmeter from said flowmeters and within a speed range of a given interval from said intervals. 4. The system of claim 1, wherein the flow data processing device is configured to store as a value the proportional contribution of the average flow rate of a given flow meter from said flowmeters to the average flow rate of said flowmeters. 5. The system of claim 1, wherein the flow data processing device is configured to save as a ratio of the average flow rate of a given flowmeter from said flowmeters to the average flow rate of another one of said flowmeters. 6. The system of claim 3, wherein the flow data processing device is configured to update a value based on none of said flowmeters with a malfunction. 7. The system of claim 1, wherein the flow data processing device is configured to update a value based on a given flow meter from said flow meters with no malfunction. 8. The system of claim 1, wherein the flow data processing device is configured to: saving the initialization value in each of the intervals and determining the expected average flow rate based on a value stored within a predetermined one of the indicated intervals, only after updating the initialization value stored in this interval from the indicated intervals in accordance with the measured value of the flow rate. 9. The system of claim 1, wherein the flow data processing device is configured to determine an expected average flow rate by interpolating values stored in two of the indicated intervals based on the average flow rate of one of said flowmeters with no malfunction between the values recorded by said two intervals. 10. The system of claim 1, wherein the flow data processing device is configured to determine a flow rate through said flowmeters based on at least one of said flowmeters with no malfunction. 11. A method of replacing a flow meter, according to which: dividing the measuring range of the fluid flow rate of the plurality of serially connected ultrasonic flow meters into a plurality of speed subbands, save, through each of these flow meters, many intervals, each of which corresponds to one of these sub-ranges of speeds, save, within each of these intervals, a value that characterizes the average flow rate through a given flow meter from these flow meters, determine, in response to a malfunction of one of these flow meters, the expected average flow rate through the specified set of flow meters based on the values stored in the indicated intervals. 12. The method according to p. 11, further comprising: determining, in response to a malfunction of a given flowmeter from said flowmeters, the expected average fluid flow rate through this given flowmeter from flowmeters based on values stored in the indicated intervals, and determining the expected average fluid flow rate through said flowmeters by combining the expected average fluid flow rate through a given flowmeter from said flowmeters and the measured average fluid flow rate through one of said flowmeters without a malfunction. 13. The method according to p. 11, further comprising storing in the form of a value the average of the flow rates measured by a given flow meter from said flow meters and located in the speed range of the corresponding one of these intervals. 14. The method of claim 11, further comprising storing, as a value, the proportional contribution of the average flow rate of the given flow meter from said flowmeters to the average flow rate of said flowmeters. 15. The method according to p. 11, further comprising storing, as a value, the ratio of the average flow rate of a given flowmeter from said flowmeters to the average flow rate of another one of said flowmeters. 16. The method of claim 11, further comprising updating the value based on none of the plurality of malfunctioning flowmeters. 17. The method according to claim 11, further comprising updating the value based on the flow meter from said flow meters with no malfunction. 18. The method according to p. 11, further comprising: storing the initialization value in each of the intervals, and determining the expected average flow rate based on a value stored within a given interval from the indicated intervals, only after changing the initialization value in response to the results of the flow rate measurement. 19. The method according to claim 11, further comprising determining the expected average flow rate by interpolating values stored in two of the indicated intervals based on the average flow rate of one of the indicated flow meters with no malfunction between the values corresponding to the indicated two intervals. 20. The method according to claim 11, further comprising determining a flow rate through said flowmeters based on at least one of said flowmeters with no malfunction. 21. An ultrasonic flow meter comprising: channel for the flow of fluid a pair of ultrasonic transducers configured to form a chordal path through the channel between these transducers, and a flow data processing device connected to ultrasonic transducers and configured to: measuring the flow rate of a fluid flowing through a channel based on the output of ultrasonic transducers, exchanging the measured values of the flow velocities with another flow meter arranged to measure the flow rate of the fluid, and calculating, in response to a malfunction of the other flow meter, the expected average fluid flow rate based on the flow rate measured by the flow data processing device and the previous value of the flow rate of the other flow meter stored by the flow data processing device. 22. The ultrasonic flow meter according to claim 21, in which the flow data processing device is configured to: preserving a plurality of velocity intervals, each of which corresponds to a range of fluid flow rates, and storing the previous values of the flow velocity in the indicated intervals, each previous value characterizing the average flow rate of the fluid through the ultrasonic flow meter or other flow meter. 23. The ultrasonic flowmeter according to claim 22, wherein the flow data processing device is configured to determine, based on a malfunction of another flowmeter, the expected flow rate of the fluid flowing through the other flowmeter based on previous values stored in the indicated intervals. 24. The ultrasonic flow meter according to claim 21, in which the previous value contains the average value of the flow rates measured by another flow meter and within a predetermined sub-range of flow rates measured by the specified other flow meter. 25. The ultrasonic flow meter according to claim 21, in which the previous value contains a proportional contribution of the flow rate measured by the flow data processing device to the average fluid flow rate. 26. The ultrasonic flow meter according to claim 21, in which the previous value contains the ratio of the flow rate measured by the flow data processing device to the flow rate measured by another flow meter. 27. The ultrasonic flowmeter according to claim 21, wherein the flow data processing device is configured to update a previous value based on an ultrasonic flowmeter and another flowmeter with no malfunction. 28. The ultrasonic flow meter according to item 21, in which the flow data processing device is configured to update the previous value based on another flow meter with no malfunction. 29. The ultrasonic flow meter according to claim 21, in which the flow data processing device is configured to: initialize the previous value and calculating the expected average flow rate based on the previous value only after updating the flow data processing device with this previous value in response to another flow meter that outputs the measured flow rate to the flow data processing device that is within a predetermined sub-range of flow rates corresponding to the specified previous value . 30. The ultrasonic flow meter according to claim 21, wherein the flow data processing device is configured to determine an expected average flow rate by interpolating various previous values based on the flow rate measured by the flow data processing device and between previous values of the average flow rate.